14.5.2
SDG 14.5.2
- The Center of Excellence for the Oceans promotes collaboration with the benchmark institution, the Atmosphere and Ocean Research Institute (AORI) of the University of Tokyo. 海洋中心促進與標竿單位日本東京大學大氣海洋研究所(AORI)合作
The Center of Excellence for the Oceans at National Taiwan Ocean University(CEO) reached an exchange and cooperation agreement with the Atmosphere and Ocean Research Institute at the University of Tokyo (AORI) in 2018. This agreement included mutual visits and resulted in the publication of 13 joint research papers between 2018 and 2022, as well as two additional co-authored works in 2023. On December 11-12, 2023, the Atmosphere and Ocean Research Institute at the University of Tokyo (AORI), led by its director, Dr. Susumu Hyodo, brought a team of eight researchers to National Taiwan Ocean University (NTOU) for the ‘‘AORI/UT-CEO/NTOU Joint Symposium on Marine Science.’’ The symposium featured presentations and academic exchanges from four faculty members of the Center of Excellence for the Oceans (sub-project leaders of Higher Education Sprout Project-The Featured Areas Research Center Program, Ministry of Education) and seven faculty members and students from the University of Tokyo. The symposium attracted nearly 100 participants, and during the event, NTOU and AORI renewed their Memorandum of Agreement (MOA).
The Center of Excellence for the Oceans further discussed potential areas of cooperation with AORI, focusing on the center's key research directions, such as hydrothermal vent ecosystems and microplastic pollution in the Kuroshio Current. Both parties plan to sign a new cooperation agreement in 2024, with concrete resource commitments to drive collaboration, and are preparing to hold another joint academic symposium in Tokyo, Japan, in 2024.
In addition to the symposium, Dr. Takuhei Shiozaki from AORI delivered a lecture at the Center of Excellence for the Oceans on November 1, 2023, and discussed research collaboration on carbon sequestration by Kuroshio plankton. From November 21 to December 20, 2023, Dr. Shuhei Nashida from AORI conducted collaborative research on copepods at the center. In total, six substantial joint research projects are set to be executed in collaboration with AORI.
Sustainable Impact: Collaborate with the Atmosphere and Ocean Research Institute of the University of Tokyo, focusing on research directions such as hydrothermal ecosystem ecology and Kuroshio plastic micro-pollution, to jointly monitor the health of aquatic ecosystems.
海洋中心在2018年與日本東京大學大氣海洋研究所(AORI)達成了學術交流合作協議。自2018年至2022年間,雙方共同發表了13篇期刊論文,在2023年發表了2篇共同著作。
2023年12月11日至12日,AORI所長Dr. Susumu Hyodo帶領8名研究人員蒞臨本校參加「AORI/UT-CEO/NTOU海洋科學聯合研討會」。本次研討會中,海洋中心的4位教師(教育部高等教育深耕計畫特色領域研究中心子計畫召集人)以及東京大學的7位師生進行了演講和學術交流。會議吸引了近百名參與者。在會議期間,海洋大學與AORI續簽了合作備忘錄(MOA)。
中心進一步與AORI討論了合作事宜,重點包括熱泉生態和黑潮塑膠微粒污染等主要研究方向。預計於2024年簽署合作協議,並計劃於2024年在東京的AORI再次舉辦雙邊學術交流研討會,進一步推動雙方合作。
此外,AORI的Dr. Takuhei Shiozaki於2023年11月1日來到海洋中心,進行了有關黑潮浮游生物固碳的演講與研究合作討論。Dr. Shuhei Nashida則於2023年11月21日至12月20日進行了橈足類的合作研究。總計,雙方建立了可以共同執行的6個實質研究合作項目。
永續影響力: 與日本東京大學大氣海洋研究所合作,聚焦熱泉生態和黑潮塑膠微粒污染等研究方向,共同監測水生生態系統的健康。
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Evidence:
https://mel.xmu.edu.cn/info/1042/23398.htm
https://mel.xmu.edu.cn/info/1043/20228.htm
- Marine Environmental Observations海洋環境觀測
The marine environmental monitoring and management become more and more important during the rapid development of industrialization and aquaculture. To strengthen teaching and research goal of the Department of Environmental Biology and Fisheries Science, as well as to protect the resource of fisheries resource and biodiversity, the course aim to train students’ basic knowledge and experimental abilities for marine environment and fisheries management.
Sustainable Impact: Our Department of Environmental Biology and Fisheries Science is building a comprehensive marine monitoring teaching and research program that spans from ecosystem analysis to fishery resource management.
隨著工業化與淺海養殖之發展,海洋環境監測與管理重要性與日俱增,為落實本校環境生物與漁業科學教學與研究,維護海洋漁業資源與生物多樣性之海洋環境特性,建構跨領域之系統化學習,培養跨世紀的海洋環境與漁業研究人才以及研究人才之海洋環境與漁業管理的基本知識及實驗能力。
永續影響力: 本校環境生物與漁業科學系,建構從生態系統分析到漁業資源管理的各個方面的海洋監測教學研究。
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Evidence:
https://r088.ntou.edu.tw/var/file/103/1103/img/1564/191572994.pdf
https://r088.ntou.edu.tw/var/file/103/1103/img/1564/252168059.pdf
- SDG14.3Supporting aquatic ecosystems through action SDG14.3 通過行動支援水生生態系統
On a cold winter day in 2015, the European Union issued a troubling warning. At that time, Taiwan's fishing industry faced severe scrutiny—overfishing issues had attracted international concern. A few years later, Taiwan received a ‘‘yellow card’’ for the exploitation of foreign fishermen. These consecutive warnings struck like heavy blows, highlighting the weak points in Taiwan's fisheries management.
In the face of the challenges in fisheries management, finding a solution became urgent. The monitoring system needed an upgrade, particularly in effectively tracking the distribution and status of the large number of vessels. This became a primary objective. However, traditional monitoring systems proved inadequate when dealing with such complex data.
At this critical moment, a group of researchers stepped forward with a vision: to forge a new path for Taiwan’s fisheries. Starting in 2016, we dedicated significant effort and expertise to an important project organized by the Fisheries Agency. We developed an innovative system called the ‘Next-Generation Global 3D Real-Time Dynamic Marine and Fisheries Geographic Information Analysis System.’ This system functioned like a powerful brain, capable of processing vast amounts of data and performing intelligent analysis using AI technology. Its visualization and dynamic features enabled monitoring personnel to easily grasp the status of fisheries and make swift judgments.
But the achievements of this system extend beyond fisheries management. Its applications have progressively expanded to real-time management of distant-water fisheries and even ventured into the field of meteorology. By integrating meteorological data, it not only assesses fisheries and marine resources but also predicts ocean conditions, providing fishermen with more reliable operational guidance. Remarkably, the system's advantages have also extended to the assessment of offshore wind farms and the setting of shipping routes.
The research team's ambitions do not stop here. We hope to integrate satellite technology in the future to further enhance the capabilities of the information analysis system. This innovation will not only benefit domestic operations but also contribute to international traffic and crowd management. Taiwan's intelligence and efforts will shine brightly on the global stage.
Sustainable Impact: Developed the ‘Next Generation Global 3D Real-Time Dynamic Ocean and Fisheries Geographic Information Analysis System,’ enabling monitors to easily grasp fishery conditions and make quick decisions.
在2015年的一個寒冷冬日,歐盟發出了一個令人擔憂的警告。那時,臺灣的漁業面臨著嚴峻的考驗——濫捕問題引起了國際社會的關切。幾年後,臺灣又因為外國漁工的被壓榨問題而收到了「黃牌」。這些連續的警訊像一記記重擊,直指臺灣漁業管理的薄弱環節。
在漁業管理的難題面前,解決方案顯得迫在眉睫。監測系統亟需升級,尤其是如何在龐大的船隻數量中有效掌握其分布與狀況,成為了首要目標。然而,傳統的監測系統在面對如此繁雜的數據時顯得捉襟見肘。
就在這個關鍵時刻,一群科研人員站了出來。我們的心中懷著一個願景,那就是為臺灣漁業開創一條全新的道路。從2016年開始,我們投入了大量的精力和智慧,參與了由漁業署安排的一項重要計畫。我們誕生了一個名為「新世代全球3D即時動態海洋與漁業地理資訊分析系統」的創新系統。這個系統像是一台強大的大腦,能夠處理海量的數據,並通過AI技術進行智能分析。它的視覺化和動態化特性,使得監測人員能夠輕鬆掌握漁業狀況,並迅速做出判斷。
但這個系統的成就不僅僅停留在漁業管理上。它的應用逐步拓展到遠洋漁業的即時管理,並且跨足到氣象領域。結合氣象數據,它不僅能夠進行漁業海況資源的評估,還能預測海洋狀況,為漁民提供了更為可靠的作業指南。更令人驚喜的是,這個系統的優勢還延伸到了離岸風力發電廠的評估和船舶航道設定上。
科研團隊的夢想並未止步於此。我們希望未來能夠結合衛星技術,進一步提升信息分析系統的能力。這樣的創新不僅能夠在國內發揮作用,也將為國際間的交通與人流管理提供貢獻。臺灣的智慧與努力,將在全球舞台上閃耀出一抹亮麗的光彩。
永續影響力: 開發了「新世代全球3D即時動態海洋與漁業地理資訊分析系統」。使監測人員能輕鬆掌握漁業狀況,迅速做出判斷。
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Evidence: